If I have the following set of entities:
A --> (unowned) B \ --> (owned) List<C> D --> (owned) List<E> --> (owned) List<F> --> (unowned) A \ --> (unowned) H G --> (unowned) H \ --> (unowned) D \ --> (unowned) B \ --> (unowned) A \ --> (unowned) F \ --> (unowned) F
If I'm touching all of these objects in a transaction, I count 4 entity groups (A, B, D, H) This should be allowed (according to the docs, you can have up to 5).
So, 2 questions: 1) Does it matter how you get/create them? i.e. is
C c = new C(a); a.getCs().add(c);
somehow using two separate entity groups even though its a parent/child relationship? Or the fact that G has two distinct values of F -- is that two entity groups or one?
2) How deep does it go when you access an object? i.e. if I also have
D --> (owned) List<K> --> (owned) List<L> --> (unowned) M
does appengine include M in the list of entity groups accessed in the transaction, even though I'm not accessing K, L or M?
I'm fairly happy with my object model from a conceptual point of view (without appengine I'm pretty sure I'd design it the same way again) but should I do as others have suggested on here and create a GenericObject which is somehow the parent of everything?
Or alternatively, given that this is pretty trivial in the database world, how many have abandoned the DataStore for Cloud SQL 6 months in? (perhaps that last is too subjective for stackoverflow, but it's a genuine question)
After wading through the logs generated by turning everything up to debug, I can see that at some point I get the following line:
24634 [1419746043@qtp-647750325-2] DEBUG DataNucleus.Persistence - Performing reachability algorithm on object with id "com.google.appengine.api.datastore.Key:D("email@example.com")"
which is then followed by a whole ton of retrievals of every object which can be accessed starting at that root entity. Since this includes a bunch of entities which are unowned (that is, they don't use any of the entities accessed so far as their parent) I guess this is what causes my transaction to fail, and the answer to Q2 appears to be 'everywhere'
So...Q3 - how do I prevent this behaviour. Note that I am calling makePersistent(D) in order to persist the two instances of F which have been modified.